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Items: 1 to 50 of 51

1.

On the ecosystemic network of saliva in healthy young adults.

Zaura E, Brandt BW, Prodan A, Teixeira de Mattos MJ, Imangaliyev S, Kool J, Buijs MJ, Jagers FL, Hennequin-Hoenderdos NL, Slot DE, Nicu EA, Lagerweij MD, Janus MM, Fernandez-Gutierrez MM, Levin E, Krom BP, Brand HS, Veerman EC, Kleerebezem M, Loos BG, van der Weijden GA, Crielaard W, Keijser BJ.

ISME J. 2017 May;11(5):1218-1231. doi: 10.1038/ismej.2016.199. Epub 2017 Jan 10.

2.

Same Exposure but Two Radically Different Responses to Antibiotics: Resilience of the Salivary Microbiome versus Long-Term Microbial Shifts in Feces.

Zaura E, Brandt BW, Teixeira de Mattos MJ, Buijs MJ, Caspers MP, Rashid MU, Weintraub A, Nord CE, Savell A, Hu Y, Coates AR, Hubank M, Spratt DA, Wilson M, Keijser BJ, Crielaard W.

MBio. 2015 Nov 10;6(6):e01693-15. doi: 10.1128/mBio.01693-15.

3.

Distinct effects of sorbic acid and acetic acid on the electrophysiology and metabolism of Bacillus subtilis.

van Beilen JW, Teixeira de Mattos MJ, Hellingwerf KJ, Brul S.

Appl Environ Microbiol. 2014 Oct;80(19):5918-26. doi: 10.1128/AEM.01391-14. Epub 2014 Jul 18.

4.

A mathematical model of metabolism and regulation provides a systems-level view of how Escherichia coli responds to oxygen.

Ederer M, Steinsiek S, Stagge S, Rolfe MD, Ter Beek A, Knies D, Teixeira de Mattos MJ, Sauter T, Green J, Poole RK, Bettenbrock K, Sawodny O.

Front Microbiol. 2014 Mar 27;5:124. doi: 10.3389/fmicb.2014.00124. eCollection 2014.

5.

A kinetic model of catabolic adaptation and protein reprofiling in Saccharomyces cerevisiae during temperature shifts.

Mensonides FI, Brul S, Hellingwerf KJ, Bakker BM, Teixeira de Mattos MJ.

FEBS J. 2014 Feb;281(3):825-41.

PMID:
24616920
6.

Oxygen relieves the CO2 and acetate dependency of Lactobacillus johnsonii NCC 533.

Hertzberger RY, Pridmore RD, Gysler C, Kleerebezem M, Teixeira de Mattos MJ.

PLoS One. 2013;8(2):e57235. doi: 10.1371/journal.pone.0057235. Epub 2013 Feb 26.

7.

On the function of the various quinone species in Escherichia coli.

Sharma P, Teixeira de Mattos MJ, Hellingwerf KJ, Bekker M.

FEBS J. 2012 Sep;279(18):3364-73. doi: 10.1111/j.1742-4658.2012.08608.x. Epub 2012 May 30.

8.

Alternative routes to biofuels: light-driven biofuel formation from CO2 and water based on the 'photanol' approach.

Hellingwerf KJ, Teixeira de Mattos MJ.

J Biotechnol. 2009 Jun 1;142(1):87-90. doi: 10.1016/j.jbiotec.2009.02.002. Epub 2009 Feb 13.

PMID:
19480951
9.

Control of specific growth rate in Saccharomyces cerevisiae.

Snoep JL, Mrwebi M, Schuurmans JM, Rohwer JM, Teixeira de Mattos MJ.

Microbiology. 2009 May;155(Pt 5):1699-707. doi: 10.1099/mic.0.023119-0. Epub 2009 Apr 9.

PMID:
19359324
10.

Microbial systems biology: new frontiers open to predictive microbiology.

Brul S, Mensonides FI, Hellingwerf KJ, Teixeira de Mattos MJ.

Int J Food Microbiol. 2008 Nov 30;128(1):16-21. doi: 10.1016/j.ijfoodmicro.2008.04.029. Epub 2008 May 6. Review.

PMID:
18541320
11.

Hypoxic conditions and iron restriction affect the cell-wall proteome of Candida albicans grown under vagina-simulative conditions.

Sosinska GJ, de Groot PWJ, Teixeira de Mattos MJ, Dekker HL, de Koster CG, Hellingwerf KJ, Klis FM.

Microbiology. 2008 Feb;154(Pt 2):510-520. doi: 10.1099/mic.0.2007/012617-0.

PMID:
18227255
12.

Effect of hxk2 deletion and HAP4 overexpression on fermentative capacity in Saccharomyces cerevisiae.

Schuurmans JM, Rossell SL, van Tuijl A, Bakker BM, Hellingwerf KJ, Teixeira de Mattos MJ.

FEMS Yeast Res. 2008 Mar;8(2):195-203. doi: 10.1111/j.1567-1364.2007.00319.x. Epub 2007 Dec 20.

13.

Physiological and transcriptional characterization of Saccharomyces cerevisiae strains with modified expression of catabolic regulators.

Schuurmans JM, Boorsma A, Lascaris R, Hellingwerf KJ, Teixeira de Mattos MJ.

FEMS Yeast Res. 2008 Feb;8(1):26-34. Epub 2007 Sep 24.

14.

The role of two-component regulation systems in the physiology of the bacterial cell.

Bekker M, Teixeira de Mattos MJ, Hellingwerf KJ.

Sci Prog. 2006;89(Pt 3-4):213-42. Review.

PMID:
17338439
15.
16.

Reducing the glucose uptake rate in Escherichia coli affects growth rate but not protein production.

Picon A, Teixeira de Mattos MJ, Postma PW.

Biotechnol Bioeng. 2005 Apr 20;90(2):191-200.

PMID:
15759256
17.

Regulation of transcription by Saccharomyces cerevisiae 14-3-3 proteins.

Bruckmann A, Steensma HY, Teixeira De Mattos MJ, Van Heusden GP.

Biochem J. 2004 Sep 15;382(Pt 3):867-75.

18.

Modulating the distribution of fluxes among respiration and fermentation by overexpression of HAP4 in Saccharomyces cerevisiae.

van Maris AJ, Bakker BM, Brandt M, Boorsma A, Teixeira de Mattos MJ, Grivell LA, Pronk JT, Blom J.

FEMS Yeast Res. 2001 Jul;1(2):139-49.

19.

Effects of a hexokinase II deletion on the dynamics of glycolysis in continuous cultures of Saccharomyces cerevisiae.

Diderich JA, Raamsdonk LM, Kuiper A, Kruckeberg AL, Berden JA, Teixeira de Mattos MJ, van Dam K.

FEMS Yeast Res. 2002 May;2(2):165-72.

20.

Precise determinations of C and D periods by flow cytometry in Escherichia coli K-12 and B/r.

Michelsen O, Teixeira de Mattos MJ, Jensen PR, Hansen FG.

Microbiology. 2003 Apr;149(Pt 4):1001-10.

PMID:
12686642
21.
22.

The metabolic response of Saccharomyces cerevisiae to continuous heat stress.

Mensonides FI, Schuurmans JM, Teixeira de Mattos MJ, Hellingwerf KJ, Brul S.

Mol Biol Rep. 2002;29(1-2):103-6.

PMID:
12241037
23.

Carbon flux distribution in antibiotic-producing chemostat cultures of Streptomyces lividans.

Avignone Rossa C, White J, Kuiper A, Postma PW, Bibb M, Teixeira de Mattos MJ.

Metab Eng. 2002 Apr;4(2):138-50.

PMID:
12009793
24.
25.
26.

Bioenergetic consequences of microbial adaptation to low-nutrient environments.

Teixeira de Mattos MJ, Neijssel OM.

J Biotechnol. 1997 Dec 17;59(1-2):117-26. Review.

PMID:
9487720
27.

Regulation of energy source metabolism in streptococci.

Neijssel OM, Snoep JL, Teixeira de Mattos MJ.

J Appl Microbiol. 1997 Oct;83(S1):12S-19S. doi: 10.1046/j.1365-2672.83.s1.2.x. No abstract available.

28.

Regulation of energy source metabolism in streptococci.

Neijssel OM, Snoep JL, Teixeira de Mattos MJ.

Soc Appl Bacteriol Symp Ser. 1997;26:12S-19S. Review. No abstract available.

PMID:
9436313
29.

Pyrroloquinoline quinone, a chemotactic attractant for Escherichia coli.

de Jonge R, Teixeira de Mattos MJ, Stock JB, Neijssel OM.

J Bacteriol. 1996 Feb;178(4):1224-6.

30.

The physiological function of periplasmic glucose oxidation in phosphate-limited chemostat cultures of Klebsiella pneumoniae NCTC 418.

Buurman ET, ten Voorde GJ, Teixeira de Mattos MJ.

Microbiology. 1994 Sep;140 ( Pt 9):2451-8.

PMID:
7952195
31.

The energetics of bacterial growth: a reassessment.

Neijssel OM, Teixeira de Mattos MJ.

Mol Microbiol. 1994 Jul;13(2):172-82. Review.

PMID:
7984099
32.

Effect of culture conditions on the NADH/NAD ratio and total amounts of NAD(H) in chemostat cultures of Enterococcus faecalis NCTC 775.

Snoep JL, de Graef MR, Teixeira de Mattos MJ, Neijssel OM.

FEMS Microbiol Lett. 1994 Mar 1;116(3):263-7.

PMID:
8181697
33.
34.

The role of lipoic acid in product formation by Enterococcus faecalis NCTC 775 and reconstitution in vivo and in vitro of the pyruvate dehydrogenase complex.

Snoep JL, van Bommel M, Lubbers F, Teixeira de Mattos MJ, Neijssel OM.

J Gen Microbiol. 1993 Jun;139 Pt 6:1325-9.

PMID:
8360624
35.
36.

Gluconate metabolism of Klebsiella pneumoniae NCTC 418 grown in chemostat culture.

Simons JA, Teixeira de Mattos MJ, Neijssel OM.

Arch Microbiol. 1993;159(4):386-91.

PMID:
8387264
37.
39.

Anaerobic 2-ketogluconate metabolism of Klebsiella pneumoniae NCTC 418 grown in chemostat culture: involvement of the pentose phosphate pathway.

Simons JA, Snoep JL, Feitz S, Teixeira de Mattos MJ, Neijssel OM.

J Gen Microbiol. 1992 Mar;138(3):423-8.

PMID:
1593257
40.

Isolation and characterisation of the pyruvate dehydrogenase complex of anaerobically grown Enterococcus faecalis NCTC 775.

Snoep JL, Westphal AH, Benen JA, Teixeira de Mattos MJ, Neijssel OM, de Kok A.

Eur J Biochem. 1992 Jan 15;203(1-2):245-50.

41.

Aerobic 2-ketogluconate metabolism of Klebsiella pneumoniae NCTC 418 grown in chemostat culture.

Simons JA, Teixeira de Mattos MJ, Neijssel OM.

J Gen Microbiol. 1991 Jul;137(7):1479-83.

PMID:
1659609
42.

Futile cycling of ammonium ions via the high affinity potassium uptake system (Kdp) of Escherichia coli.

Buurman ET, Teixeira de Mattos MJ, Neijssel OM.

Arch Microbiol. 1991;155(4):391-5.

PMID:
2048936
43.

The role of futile cycles in the energetics of bacterial growth.

Neijssel OM, Buurman ET, Teixeira de Mattos MJ.

Biochim Biophys Acta. 1990 Jul 25;1018(2-3):252-5.

PMID:
2144189
44.

The role of magnesium and calcium ions in the glucose dehydrogenase activity of Klebsiella pneumoniae NCTC 418.

Buurman ET, Boiardi JL, Teixeira de Mattos MJ, Neijssel OM.

Arch Microbiol. 1990;153(5):502-5.

PMID:
2160228
45.
46.

Nitrogen-limited behaviour of micro-organisms growing in the presence of large concentrations of ammonium ions.

Buurman ET, Teixeira de Mattos MJ, Neijssel OM.

FEMS Microbiol Lett. 1989 Apr;49(2-3):229-32.

PMID:
2663635
47.

Replacement of potassium ions by ammonium ions in different micro-organisms grown in potassium-limited chemostat culture.

Buurman ET, Pennock J, Tempest DW, Teixeira de Mattos MJ, Neijssel OM.

Arch Microbiol. 1989;152(1):58-63.

PMID:
2669673
48.

Establishment of the steady state in glucose-limited chemostat cultures of Klebsiella pneumoniae.

Rutgers M, Teixeira de Mattos MJ, Postma PW, Van Dam K.

J Gen Microbiol. 1987 Feb;133(2):445-51.

PMID:
3309157
49.

Energetic consequences of multiple K+ uptake systems in Escherichia coli.

Mulder MM, Teixeira de Mattos MJ, Postma PW, van Dam K.

Biochim Biophys Acta. 1986 Sep 10;851(2):223-8.

PMID:
3527265
50.

Influence of metabolic end-products on the growth efficiency of Klebsiella aerogenes in anaerobic chemostat culture.

Teixeira de Mattos MJ, Plomp PJ, Neijssel OM, Tempest DW.

Antonie Van Leeuwenhoek. 1984;50(5-6):461-72.

PMID:
6442120

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